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segment_tree.py
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segment_tree.py
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# taken from openai/baselines
# commit 69f25c6028d71e23a7b267b0e1071ad216290f91
import operator
class SegmentTree(object):
def __init__(self, capacity, operation, neutral_element):
"""Build a Segment Tree data structure.
https://en.wikipedia.org/wiki/Segment_tree
Can be used as regular array, but with two
important differences:
a) setting item's value is slightly slower.
It is O(lg capacity) instead of O(1).
b) user has access to an efficient ( O(log segment size) )
`reduce` operation which reduces `operation` over
a contiguous subsequence of items in the array.
Paramters
---------
capacity: int
Total size of the array - must be a power of two.
operation: lambda obj, obj -> obj
and operation for combining elements (eg. sum, max)
must form a mathematical group together with the set of
possible values for array elements (i.e. be associative)
neutral_element: obj
neutral element for the operation above. eg. float('-inf')
for max and 0 for sum.
"""
assert capacity > 0 and capacity & (capacity - 1) == 0, "capacity must be positive and a power of 2."
self._capacity = capacity
self._value = [neutral_element for _ in range(2 * capacity)]
self._operation = operation
def _reduce_helper(self, start, end, node, node_start, node_end):
if start == node_start and end == node_end:
return self._value[node]
mid = (node_start + node_end) // 2
if end <= mid:
return self._reduce_helper(start, end, 2 * node, node_start, mid)
else:
if mid + 1 <= start:
return self._reduce_helper(start, end, 2 * node + 1, mid + 1, node_end)
else:
return self._operation(
self._reduce_helper(start, mid, 2 * node, node_start, mid),
self._reduce_helper(mid + 1, end, 2 * node + 1, mid + 1, node_end)
)
def reduce(self, start=0, end=None):
"""Returns result of applying `self.operation`
to a contiguous subsequence of the array.
self.operation(arr[start], operation(arr[start+1], operation(... arr[end])))
Parameters
----------
start: int
beginning of the subsequence
end: int
end of the subsequences
Returns
-------
reduced: obj
result of reducing self.operation over the specified range of array elements.
"""
if end is None:
end = self._capacity
if end < 0:
end += self._capacity
end -= 1
return self._reduce_helper(start, end, 1, 0, self._capacity - 1)
def __setitem__(self, idx, val):
# index of the leaf
idx += self._capacity
self._value[idx] = val
idx //= 2
while idx >= 1:
self._value[idx] = self._operation(
self._value[2 * idx],
self._value[2 * idx + 1]
)
idx //= 2
def __getitem__(self, idx):
assert 0 <= idx < self._capacity
return self._value[self._capacity + idx]
class SumSegmentTree(SegmentTree):
def __init__(self, capacity):
super(SumSegmentTree, self).__init__(
capacity=capacity,
operation=operator.add,
neutral_element=0.0
)
def sum(self, start=0, end=None):
"""Returns arr[start] + ... + arr[end]"""
return super(SumSegmentTree, self).reduce(start, end)
def find_prefixsum_idx(self, prefixsum):
"""Find the highest index `i` in the array such that
sum(arr[0] + arr[1] + ... + arr[i - i]) <= prefixsum
if array values are probabilities, this function
allows to sample indexes according to the discrete
probability efficiently.
Parameters
----------
perfixsum: float
upperbound on the sum of array prefix
Returns
-------
idx: int
highest index satisfying the prefixsum constraint
"""
assert 0 <= prefixsum <= self.sum() + 1e-5
idx = 1
while idx < self._capacity: # while non-leaf
if self._value[2 * idx] > prefixsum:
idx = 2 * idx
else:
prefixsum -= self._value[2 * idx]
idx = 2 * idx + 1
return idx - self._capacity
class MinSegmentTree(SegmentTree):
def __init__(self, capacity):
super(MinSegmentTree, self).__init__(
capacity=capacity,
operation=min,
neutral_element=float('inf')
)
def min(self, start=0, end=None):
"""Returns min(arr[start], ..., arr[end])"""
return super(MinSegmentTree, self).reduce(start, end)